Title :
Tunable Microlens Based on Nanoparticle-induced Hybrid Alignment Liquid Crystal
Author :
Hwang, Shug June ; Shieh, Yi Ming ; Lin, Kuo Ren ; Jeng, Shie Chang ; Liao, Chi Chang ; Yu, Hsin Her
Author_Institution :
Dep. of Electro-Opt. Eng. & Optoelectron. Res. Center, Nat. United Univ., Miaoli
Abstract :
The nanoparticles-induced vertical alignment (NIVA) of the nematic liquid crystals (LC) was proposed to make a tunable liquid-crystal flat microlens with hybrid-aligned nematic (HAN) mode, which was fabricated using micro drop technology. The minute amount of nanoparticle solution was dropped on the selective area, which was surrounded by homogeneous alignment layer. Due to vertical alignment induced by the nanoparticles, the liquid-crystal concave microlens with concentric non-uniform distribution of the refractive index was then formed in the planar LC cell. The divergence effect of this flat lens was observed and its focal length can be electrically controlled at applied voltages.
Keywords :
electro-optical devices; liquid crystal devices; microfabrication; microlenses; molecular orientation; nanoparticles; nanophotonics; nematic liquid crystals; optical fabrication; optical materials; optical tuning; refractive index; applied voltage; concentric nonuniform distribution; flat lens divergence effect; focal length; homogeneous alignment layer; hybrid-aligned nematic mode; lens fabrication; microdrop technology; molecule orientation; nanoparticles-induced vertical alignment; nematic liquid crystal; planar LC cell; refractive index; tunable microlens; Indium tin oxide; Interference; Lenses; Liquid crystals; Microoptics; Nanoparticles; Optical microscopy; Optical refraction; Optical variables control; Refractive index;
Conference_Titel :
PhotonicsGlobal@Singapore, 2008. IPGC 2008. IEEE
Conference_Location :
Singapore
Print_ISBN :
978-1-4244-3901-0
Electronic_ISBN :
978-1-4244-2906-6
DOI :
10.1109/IPGC.2008.4781360
